Development of reconstituted mouse embryos produced from the cytoplast of bisected oocytes or pronuclear-stage embryos and single blastomeres of 2-cell stage embryos

The present study investigated the in vitro developmental potential of reconstituted mouse embryos produced from the cytoplast of pronuclear-stage embryos or oocytes and single blastomeres of 2-cell stage embryos by electrofusion. The cytoplast of pronuclear-stage embryos and oocytes were obtained by manual bisection with a fine glass needle under a dissecting microscope. The fusion rates of the reconstituted embryos produced from the cytoplast of oocytes and single blastomeres of 2-cell stage embryos (O-SB2: 38.1 and 41.5%) were significantly lower than those produced from the cytoplast of pronuclear-stage embryos and single blastomeres of 2-cell stage embryos (P-SB2: 91.2 and 97.6%; P<0.001). Reconstituted embryos were encapsulated in alginate gel and were cultured for 96 hours. Similarly, the cleavage and development rates to the blastocyst stage of O-SB2 (56.3, 61.2 and 2.0, 3.1%, respectively) were significantly lower than those of the P-SB2 (91.0, 91.2 and 18.6, 20.7%; respectively, P<0.05). The cleavage and development rates to the blastocyst stage (61.2 and 2.0%) of reconstituted embryos produced from single blastomeres of late 2-cell stage embryos and oocyte cytoplast improved after activation by ethanol treatment (76.1 and 21.7%). However, the use of single blastomeres of early 2-cell stage embryos as nuclear donors did not enhance the cleavage and development rates of the reconstituted embryos to the blastocyst stage.     

Fusion and development rates of single blastomere pairs of mouse two- and four-cell embryos using the electrofusion method

The present study was undertaken to find suitable conditions for blastomere fusion of mouse two- and four-cell embryos using the electrofusion method to simplify the nuclear transfer procedure. Single blastomeres of ICR and F1 (C57BL/6J x CBA/N) two-cell embryos or ICR four-cell embryos and F1 two-cell embryos were paired and treated with electric stimulus under different fusion conditions. Two hours after electrofusion treatment, the fused blastomere pairs were encapsulated in alginate gel and cultured for 96 hours to observe their developmental potential. When the single blastomere pairs of two-cell embryos were exposed to electric pulses of 1.0, 1.5 and 2.0 kV/cm for 30, 60 and 90 mu sec, high fusion rates were obtained (84.6 to 100%). However, when two-cell blastomere were paired with four-cell blastomere and then treated under the same conditions, the fusion rates (27.5 to 87.5%) were lower than that of single blastomere pairs of two-cell embryos regardless of the duration and strength of the d.c. pulses. The blastocyst developmental rate after in vitro culture of the fused blastomere pairs of two-cell embryos using the above electrofusion conditions was high (81.8 to 100%). Lower blastocyst developmental rates were obtained on the fused blastomere pairs of two- and four-cell embryos (46.4 to 76.2%). Based on the results of this study, a pulse duration of 60 mu sec and a pulse strength of 1.0kV/cm were the most suitable conditions for single blastomere pair fusion of two-cell or two- and four-cell embryos. The study further showed that alginate gel is a good substitute for zonae pellucidae for encapsulating zona-free embryos.     

Nuclear transfer and electrofusion in bovine in vitro-matured/in vitro-fertilized embryos: Effect of media and electrical fusion parameters

In this study, micromanipulation and electrofusion conditions for the cloning of in vitro-produced bovine embryos (here after termed IVM/IVF embryos) derived from in vitro-matured (IVM) and in vitro-fertilized (IVF) oocytes were established. The effect of DC field strength on the fusion rate was tested in a model system using pronuclear stage embryos in which a cytoplasmic vesicle was removed and reinserted. Efficient fusion (80%) was obtained by applying a pulse of 1.75 kV/cm for 40 μsec. In vitro development of manipulated pronuclear stage embryos was as efficient as that of unmanipulated control embryos. Different fusion media were compared in the cloning procedure, using IVM oocytes as recipients and blastomeres from day 6 IVM/IVF donor embryos. Zimmermann cell fusion medium reduced the lysis of nuclear transfer embryos compared to F300 (5% vs. 25%). The effects of drugs disrupting the microfilaments and microtubuli were determined. Neither the addition of cytochalasin B (CCB) for 1 hr in the postfusion medium nor incubation of donor blastomeres with nocodazole had a significant effect on the fusion or cleavage rate of the nuclear transfer embryos. Additional experiments demonstrated that there was no difference in developmental potential between nuclear transfer embryos allowed to develop in vitro or in vivo and that the embryos gave a 15% pregnancy rate in recipient cattle. © 1993 Wiley-Liss, Inc.     

Development of sheep androgenetic embryos is boosted following transfer of male pronuclei into androgenetic hemizygotes

Androgenetic embryos are useful model for investigating the contribution of the paternal genome to embryonic development. Little work has been done with androgenetic embryo production in domestic animals. The aim of this study was the production of diploid androgenetic sheep embryos. In vitro matured sheep oocytes were enucleated and fertilized in vitro; parthenogenetic and normally fertilized embryos were also produced as a control. Fifteen hours after in vitro fertilization (IVF), presumptive zygotes were centrifuged and scored for the number of pronucleus. IVF, parthenogenetic, and androgenetic embryos (haploid, diploid, and triploid) were cultured in SOFaa medium with bovine serum albumin (BSA). The proportion of oocytes with polyspermic fertilization increased linearly with increasing sperm concentration. After IVF, there was no significant difference in early cleavage and morula formation rates between the groups, while there was a significant difference on blastocyst development between IVF, parthenogenetic, and androgenetic embryos, the last ones displaying poor developmental potential (IVF, parthenogenetic, and haploid, diploid, and triploid androgenetic embryos: 43%, 38%, 0%, 2%, and 2%, respectively). In order to boost androgenetic embryonic development, we produced diploid androgenetic embryos through pronuclear transfer. Single pronuclei were aspirated with a bevelled pipette from haploid or diploid embryos and transferred into the perivitelline space of other haploid embryos, and the zygotes were reconstructed by electrofusion. Fusion rates approached 100%. Pronuclear transfer significantly increased blastocyst development (IVF, parthenogenetic, androgenetic: Diploid into Haploid, and Haploid into Haploid: 42%, 42%, 19%, and 3%, respectively); intriguingly, the Haploid + Diploid group showed the highest development to blastocyst stage. The main findings of our study are: (1) sheep androgenetic embryos display poor developmental ability compared with IVF and parthenogenetic embryos; (2) diploid androgenetic embryos produced by pronuclear exchange developed in higher proportion to blastocyst stage, particularly in the Diploid-Haploid group. In conclusion, pronuclear transfer is an effective method to produce sheep androgenetic blastocysts.     

Developmental ability of enucleated bovine oocytes matured in vitro after fusion with single blastomeres of eight-cell embryos matured and fertilized in vitro

Single blastomeres from eight-cell stage bovine embryos matured and fertilized in vitro were electrically fused with enucleated oocytes matured in vitro. In experiment 1, The percentage of these reconstituted embryos developed to the two- to eight-cell stage 48 hr after electrofusion was increased when both the eight-cell embryos and the enucleated oocytes were derived from oocytes cultured with granulosa cells (14% vs. 38%). In experiment 2, the relationship between activation of oocytes and developmental ability of reconstituted embryos was examined. Although both ethanol and electrical stimulation efficiently induced parthenogenetic activation of oocytes matured in vitro for 26–28 hr (ethanol, 89%; electrical stimulation, 73%), the ratio of the second polarbody extrusion differed (80% vs. 22%). Ethanol-treated enucleated oocytes, however, were not significantly different from the early cleavage of the reconstituted embryos 48 hr after electrofusion (nontreated, 38%; treated, 43%). In experiment 3, reconstituted embryos at the two- to eight-cell stage 48 hr after the electrofusion were cocultured with granulosa cells for 6–7 days. Of 69 embryos, one developed to a morula and three developed to blastocysts. © 1993 Wiley-Liss, Inc.     

Nuclear transplantation in early pig embryos

Nuclear transfer was evaluated in early porcine embryos. Pronuclear stage embryos were centrifuged, treated with cytoskeletal inhibitors, and subsequently enucleated. Pronuclei containing karyoplasts were placed in the perivitelline space of the enucleated zygote and fused to the enucleated zygote with electrofusion. The resulting pronuclear exchange embryos were either monitored for cleavage in vitro (9/13 cleaved and contained 2 nuclei after 24 h, 69%) or for in vivo development. In vivo development after 3 days resulted in 14/15 (93%) of the embryos transferred cleaving to the greater than or equal to 4-cell stage and after 7 days 6/16 (38%) reaching the expanded blastocyst stage. A total of 56 pronuclear exchange embryos were allowed to go to term, and 7 piglets were born. A similar manipulation procedure was used to transfer 2-, 4- or 8-cell nuclei to enucleated, activated meiotic metaphase II oocytes. Enucleation was effective in 74% (36/49) of the contemporary oocytes. Activation was successful in 81% (37/46) of nonmanipulated but pulsed oocytes versus 13% (4/31) of control oocytes (p less than 0.01). After 6 days in vivo, 9% (1/11) of the 2-cell nuclei, 8% (7/83) of the 4-cell nuclei, and 19% (11/57) of the 8-cell nuclei transferred to enucleated, activated meiotic metaphase II oocytes resulted in development to the compact morula or blastocyst stage (p less than 0.01). A total of 88 nuclear transfer embryos were transferred to recipient gilts for continued development. A single piglet was born after the transfer of a 4-cell nucleus to an enucleated, activated metaphase II oocyte and subsequent in vivo development.(ABSTRACT TRUNCATED AT 250 WORDS)     

Radiosensitivity variation during the cell cycle in pronuclear mouse embryos in vitro

Abstract. The radiosensitivity of pronuclear mouse (B6D2 F1 x ICR) embryos has been measured in vitro as a function of time during the cell cycle. This was done by measuring the dose of X-rays (LD50) required to prevent development of 50% of the pronuclear embryos to the blastocyst stage in 5 days of culture. The LD50 was found to vary from 1 to 2 Gy during the period from G1 to the first cleavage. The cell cycle in the pronuclear embryo was analysed by [³H]thymidine autoradiography. Compared with earlier studies on two-cell mouse embryo radiosensitivity, the pronuclear embryos appear to be more sensitive to radiation than the two-cell embryos. If, however, one considers the radiation sensitivity on a blastomere basis, the pronuclear embryos are not different in their radiation sensitivity from the two-cell embryos. Thus, during the early cleavage stages of mice, radiosensitivity is mainly governed by the content of cells of various cell cycle ages in the embryo.     

Cloned piglets born after nuclear transplantation of embryonic blastomeres into porcine oocytes matured in vivo

Nuclear transplantation in the pig is more difficult than in other domestic animals and only one embryonic nuclear transplantation (NT) pig has been born to date. In this study, reconstituted porcine embryos were produced by electrofusion of blastomeres from in vivo four-cell embryos to enucleated in vivo or in vitro matured (IVM) oocytes. Nuclear transfer using cumulus cells as nuclear donors was also conducted. When blastomeres were used as donors, the electrofusion rate was significantly higher in oocytes matured in vivo (91.5%) than in those matured in vitro (66.1%) (p < 0.01). After fusion, the NT embryos reconstituted from in vivo matured oocytes developed to blastocysts at a rate of 10.3% after culture in rabbit oviducts for up to 5 days, while only 5.9% of the NT embryos reconstructed from in vitro matured oocytes developed to blastocyst stage. Electrofusion rate of cumulus cell nuclei with enucleated IVM oocytes was lower (47.6%) and only 1.5% (2/136) of the reconstituted eggs developed in vitro to morula stage, and 1.9% developed to blastocysts when cultured in the ligated rabbit oviducts. Transfer of 94 embryos reconstructed by blastomere NT with in vivo matured oocytes to five synchronous recipients resulted in the birth of two cloned piglets. No piglet was born following transfer to two recipients of embryos (n = 39) derived from NT with in vitro matured oocytes. The results demonstrate that in vivo matured oocytes are better recipients than those matured in vitro for pig cloning.     

Preimplantation development of rabbit embryos after transfer of embryonic nuclei into different cytoplasmic environment

The development of nuclear-transfer oocytes and zygotes was tested in the rabbit. Metaphase II oocytes and zygotes in the early pronuclear stage were treated with a cytoskeletal inhibitor (cytochalasin D), enucleated, and subsequently fused either with single blastomeres from eight- and 16-cell stages (oocytes and zygotes) or with pronuclei-containing karyoplasts (zygotes only). Also, nonenucleated zygotes were fused with 1/8 blastomeres. Fusion was performed by means of an electric field. Development of reconstituted embryos was monitored mainly in vitro, but a certain number of embryos developed from oocytes and zygotes receiving nuclei from eight-cell stages were also transferred into pseudopregnant does. Development of nuclear-transfer oocytes was distinctly better than that of nuclear-transfer zygotes, since 16.9% and 9.5% oocytes vs. 8.1% and 3.7% zygotes carrying eight- and 16-cell nuclei, respectively, developed to the blastocyst stage. Two advanced but already dead fetuses were found after transfer of 27 four-cell embryos obtained after fusion of oocytes with 1/8 blastomeres. No implantations were observed after transfer of 25 four-cell embryos developed from enucleated zygotes receiving eight-cell nuclei. These findings indicate that, in the rabbit, some nuclei from 16-cell embryos are still capable of promoting at least preimplantation development. Comparison between the developmental abilities of oocyte- and zygote-derived nuclear-transfer embryos also suggests that the cytoplasmic environment of recipient cell is more crucial for the development of reconstituted embryos than the stage of introduced nuclei (at least up to the 16-cell stage). The majority of pronuclear exchange embryos (69.9%) and 40% of nonenucleated zygotes receiving eight-cell nuclei were able to develop to the blastocyst stage. This latter observation indicates, similarly as with mouse, a supporting role of residual pronuclei for participation of an eight-cell nucleus in the development of reconstituted zygotes.     

Growth and reproduction of mice developed from bisected embryos

Embryos from three groups of mice, ICR (I), a synthetic (S), and an F(1) hybrid from C57BL males and S females (F), were used to examine effects of embryo bisection on subsequent viability, postnatal growth and reproduction. In two experiments, Group S females used as recipients received the following combinations of whole (W) and/or bisected (B) embryos: W(I) and W(F), W(I) and B(F), B(I) and W(F), and B(I) and B(F) in Experiment 1 and W(I) and W(S), W(I) and B(S), B(I) and W(S), and B(I) and B(S) in Experiment 2. Eight to 12 embryos of both types were transferred surgically to two horns of the uterus. Overall survival rate of whole embryos (32.6%) was significantly greater (P < 0.001) than that for demi-embryos (13.2%). The gestation period after transfer was significantly longer (P < 0.05) for demi-embryos (17.5d) than for whole embryos (16.4 d). Mice developed from demi and whole embryos were not different in mean body weight at birth and at 21, 42 and 63 d of age. Fertility and litter size at first parity of mice that developed from bisected embryos were comparable with those that developed from whole embryos. Hence, bisection decreased embryo viability, increased gestation period of recipients but did not affect postnatal growth and reproduction.     

Use of cryopreserved pronuclear embryos for the production of transgenic mice

A series of experiments was conducted to test the hypothesis that an improved cryopreservation protocol for pronuclear stage mouse embryos will produce transgenic (Tg) mice by pronuclear gene injection at a rate not significantly different from noncryopreserved embryos. In the first experiment, three cryoprotective agents (CPAs) (dimethyl sulfoxide [DMSO], propylene glycol [PG], ethylene glycol [EG]) and two cryopreservation protocols, currently used for pronuclear embryos, were compared in regard to their ability to maintain post-thaw morphological integrity and in vitro developmental competence. In the second and third experiments, the optimal cryopreservation protocol determined from the first experiment was used to evaluate in vitro developmental competence of pronuclear embryos following green fluorescence protein gene injection and in vivo developmental competence as well as the gene integration rates. Survival (morphological integrity and development to two cells) of embryos cryopreserved in the presence of DMSO was higher (P < 0.05) than those cryopreserved with either PG or EG. Postinjection developmental competence (development to two cells) of cryopreserved CBA, C57B6/JxCBA-F1 and noncryopreserved (control) embryos was not different (P > 0.05). Postinjection blastocyst formation rate of cryopreserved and noncryopreserved C57B6/JxCBA-F1 embryos was similar (P > 0.05); however, noncryopreserved CBA embryos resulted in a higher blastocyst formation than controls (P < 0.05). While there was no difference in the percentage of transgenic fetuses between cryopreserved and control CBA embryos (P > 0.05), cryopreserved C57B6/JxCBA-F1 embryos resulted in lower transgenic fetuses than control (P < 0.05). These results indicate that the use of cryopreserved mouse pronuclear embryos can be a useful and efficient approach to the production of Tg mice.     

Cotransfer of parthenogenetic embryos improves the pregnancy and implantation of nuclear transfer embryos in mouse

The majority of somatic cell nuclear transfer (SCNT) clones dies in the peri- or postimplantation period. Improvement of the full-term healthy pregnancy rates is a key issue for the economical viability and animal welfare profile of SCNT technology. In this study the effects of cotransfer of parthenogenetic or fertilized embryos on the pregnancy and implantation of SCNT mouse embryos have been investigated. SCNT embryos were produced by transferring cumulus cell nuclei into enucleated B6D2F1 mouse oocytes, whereas parthenogenetically activated (PA) and fertilized embryos were derived from ICR mice by artificial activation with strontium and in vivo fertilization, respectively. SCNT embryos were inferior in their developmental capacity to blastocyst compared to either PA or fertilized embryos. SCNT embryos were transferred alone (SCNT), or cotransferred with two to three PA (SCNT + PA) or fertilized (SCNT + Fert) embryos into the oviducts of an ICR recipient. Both pregnancy and implantation rates originating from clones in the SCNT + PA group were significantly higher than those of SCNT group (p < 0.05). The weight of placentas of clones derived from SCNT, SCNT + PA, or SCNT + Fert was in all cases significantly higher than that of fertilized controls (p < 0.001). Most of the clones derived from SCNT embryos cotransferred with PA or fertilized embryos survived to adulthood and were fertile and healthy according to histopathological observations. Our results demonstrate in mouse that cotransfer of PA embryos improves the pregnancy and implantation of SCNT embryos without compromising the overall health of the resulting clones.     

In vitro development of mouse somatic nuclear transfer embryos: effects of donor cell passages and electrofusion

In this study, C57BL/6 adult male mouse ear fibroblast cells and Kunming mouse M2 oocytes were used as donors and recipients, respectively, to investigate the effect of passage number on donor cells and electrofusion times on the in vitro development of nuclear transfer (NT) embryos. The results demonstrated firstly that when the ear fibroblast cells from either 2-4, 5-7 or 8-10 passages were used as donors, respectively, to produce NT embryos, the number of passages undergone by the donor cells had no significant effect on the in vitro development of NT embryos. The developmental rates for morula/blastocyst were 15.2, 13.3 and 14.0%, respectively, which were not significantly difference (p>0.05). Secondly, when the NT embryos were electrofused, there was no significant difference between the fusion ratio for the first electrofusion and the second electrofusion (p>0.05). The developmental rates of the 2-cell and 4-cell stages that had undergone only one electrofusion, however, were significantly higher than those that had had two electrofusions (65.7% compared with 18.4% and 36.4% compared with 6.1%; p<0.01), furthermore the NT embryos with two electrofusions could not develop beyond the 4-cell stage. This study suggests that this protocol might be an alternative method for mouse somatic cloning, even though electrofusion can exert negative effects on the development of NT embryos.     

Electrofusion for the pronuclear transplantation of mouse eggs

The present study was undertaken to determine the efficiency of HVJ treatment and electrofusion for pronuclear transplantation in the mouse. The output voltage and duration of the pulses were fixed to 200 μsec at 10 V or to 150 μsec at 15 V for electrofusion, because the maximum rates of blastomere fusion of 2-cell embryos and development of fused embryos in vitro were obtained under these conditions. Although the proportion of eggs with fused karyoplast (78%) and the fused eggs developed to morulae or blastocysts (67%) was significantly lower than those obtained after HVJ treatment (94% and 94%), the proportion of pregnant recipients and young obtained after treatment of fused eggs was not significantly different between these two procedures. It is advised that electrofusion can be used as a fusogenic procedure for pronuclear transplantation in the mouse in some cases where HVJ cannot be applied.     

小鼠不同阶段胚胎玻璃化冷冻保存的比较研究

The cryopreservation of different embryo stages collected from ICR, C57BL/6 and F1 of DBA*C57BL/6 was carried out by using vitrification method. The morphology, in vitro development and birth rates of these embryos were compared after frozen-thawed. The results showed that more than 75% of the morphology from 2-cell embryos to morula stages from different strains was normal, the normal morphology rates of 8-cell embryos being the highest, while those of blastulas being the lowest. The in vitro development rates became higher as the embryos developed. The morphology of in vivo and in vitro fertilized frozen 2-cell embryos showed no difference, but the development rate of in vivo fertilized frozen 2-cell embryos was significantly higher than that of in vitro ones. Embryos that underwent 3 times frozen-thawing remained normal morphology. The pregnant rate and birth rate of frozen 2-cell embryos after embryo transfer were 64% and 40% respectively, but lower than those of fresh 2-cell embryo transfer.     

Effects of induction current and other factors on large-scale electrofusion for pronuclear transplantation of mouse eggs

In this paper, we describe the procedure of large-scale and efficient electrofusion for pronuclear transplantation in mouse eggs and the tolerance of the eggs for electric stimulus, assessed in vitro and in vivo development. The fusion chamber was arranged in parallel by dielectrodes (30-mm length, 1-mm width, and 2-mm height), and 0.3 M mannitol in distilled water was used as a fusion solution. The agglutination cleavage of enucleated eggs with karyoplast was easily orientated in parallel with electrodes by alternating current between 100 and 500 kHz at 2 and 10 V/mm. Immediately after the orientation, a direct current of 150 V/mm was given for 200 μsec twice and repeated three times to induce fusion of the enucleated eggs with karyoplast. More than five eggs, at least, can be submitted to electrofusion at the same time. The eggs that were not fused were treated again in the same manner. The proportion of eggs fused with karyoplast was increased by preincubation in M16 medium prior to submitting them to the electrofusion. When the eggs were incubated for 60 min, 80% of them were fused with karyoplast by the first electric treatment; in contrast, only 19% of the eggs were fused if they were submitted to electrofusion directly. It was found that between the CD-1 and F1 strains there was a difference in tolerance of the eggs to electric stimulus and that this was depend on the nuclei but not on cytoplasm. The proportion of development to blastocyst in the eggs fused with the pronuclear karyoplast derived from F1 (75 and 71%) was twice that of the eggs fused with the pronuclei derived from CD-1 strain (25 and 37%). After transfer to recipients, live young were obtained from both the eggs fused with karyoplast following one or two electrofusion exposures.     

遗传背景对小鼠四倍体胚胎发育的影响

不同遗传背景的小鼠2-细胞期胚胎经过电融合后,胚胎的融合效率和四倍体胚胎的发育能力存在着一定的差异。本试验采用C57(C57×C57)、ICR(ICR×ICR)、BALB/c(BALB/c×BALB/c)、B6D2F2(B6D2F1×B6D2F1)、B6C3D2F2(B6C3F1×B6D2F1)品系的二倍体2-细胞期胚胎在相同的条件下经过电融合处理,结果表明:小鼠四倍体胚胎的获得效率受小鼠遗传背景的影响,远交系小鼠胚胎B6D2F2和B6C3D2F2的融合率显著高于近交系C57,ICR和BALB/c(P<0.05);四倍体胚胎在体外的发育情况也受其遗传背景的影响,在桑椹胚发育率和囊胚发育率上B6D2F2和B6C3D2F2品系的四倍体胚胎都显著高于C57和BALB/c品系的四倍体胚胎(P<0.05);杂合和纯系遗传背景的小鼠四倍体胚胎囊胚细胞数目相比具有显著差异(P<0.05或P<0.01);不同遗传背景的小鼠四倍体胚胎着床率间不存在显著差异(P>0.05);杂合背景的小鼠四倍体胚胎得到5只发育至13.5dpc(dayspostcoitum,dpc)的胎儿,纯合背景的小鼠四倍体胚胎得到0只发育至11dpc的胎儿。     

Compaction in preimplantation mouse embryos is regulated by a cytoplasmic regulatory factor that alters between 1- and 2-cell stages in a concentration-dependent manner.

Present studies were performed to investigate what factors affect the morphogenesis of preimplantation mouse embryos, and to find the action mechanism of that factor by using cytoplasm removal and its reconstitution from a different developmental stage embryo. Half (HP group) or one-third of cytoplasm (TP group) was removed from 1-cell mouse embryos by micromanipulation, and their morphogenesis and genome expression were compared with sham-operated embryos (SP group). The compaction and blastocoel formation of embryos in both the HP and TP groups were accelerated in time and cell stage when compared with those of the SP group. However, the total activity and time of RNA synthesis, and gene expression of ZO-1alpha+ isoform were not different. To change the cytoplasm composition without altering the nucleus/cytoplasmic ratio, half a 1-cell embryo with both pronuclei was reconstituted with the half enucleated cytoplasm of 1-cell embryo (P + P group), 2-cell (P + 2 group) or 4-cell (P + 4 group) by electrofusion. Embryonic compaction, timing of RNA synthesis, and stage-specific gene expression of the ZO-1alpha(+) isoform in the P + 2 and P + 4 groups were accelerated in time and cell stage than that in the P + P group, but not different between the P + 2 and P + 4 groups. In addition, a blastomere of 2-cell embryo was reconstituted with the enucleated cytoplasm of 1-cell embryo (2 + P group) or 2-cell (2 + 2 group) in equal volume by electrofusion. Also, the karyoplast of 2-cell was fused with the enucleated 1-cell embryo (2 + PP group). Embryonic development, total activity of RNA synthesis, and gene expression of the ZO-1alpha(+) isoform of embryos in the 2 + P and 2 + PP groups were delayed when compared with those of the 2 + 2 group. Also, the phenomena of compaction and blastocoel formation were delayed in the development time and cell stage. From these results, the nucleus/cytoplasm ratio was found to have no direct effect on the regulation of embryonic morphogenesis, although it accelerated compaction and blastocoel formation. However, cytoplasmic factors that altered between 1- and 2-cell stages regulate embryonic morphogenesis, especially compaction, of preimplantation mouse embryos in concentration-dependent manner.     

Effect of aging of recipient oocytes on the development of bovine nuclear transfer embryos in vitro

The present study was undertaken to examine the effect of the length of in vitro maturation of oocytes on the efficiency of enucleation, parthenogenetic activation and blastomere fusion by electric stimulus. In vitro development of reconstituted oocytes receiving a blastomere from 8 to 16-cell bovine embryos fertilized in vitro was investigated to assess the effect of aging of the oocytes. The proportion of oocytes with a first polar body at 22 to 24 hours after maturation was high (80%) compared with those obtained at 16 to 18, 28 to 30 or 42 to 44 hours (50 to 75%). The success rate of enucleation significantly decreased with aging (88, 85, 74 and 55%). The activation rate significantly increased with the length of maturation in vitro (P<0.01) (1 to 4, 24 to 41, 57 to 70 and 80 to 87%). The proportion of oocytes fused with a blastomere from 8- to 16-cell embryos was not dependent on the age of the oocytes (54 approximately 59%). The ability of the reconstituted oocytes to develop to the 2-cell and the 8- to 16-cell stage increased with the length of maturation of recipient oocytes. When oocytes enucleated and a blastomere at 22 to 24 hours were incubated further for 22 to 23 hours until electrofusion. The proportions of oocytes which developed to the 2-cell and the 8- to 16-cell stages (74 and 17%) were similar to those obtained at 42 to 44 hours after maturation. However, only 1 to 6% of reconstituted eggs receiving a blastomere from 8- to 16-cell embryos fertilized in vitro developed into a blastocyst in vitro.